Human communication technology has experienced rapid development, led by 5G and Wi-Fi 6. These technologies are meeting the needs of the Internet of People and driving the development of the Internet of Things (IoT).
The surge in global device connections is posing new demands and challenges. After four decades of rapid development, human communication technology has entered an unprecedented period of prosperity. Communication connectivity technologies, represented by 5G and Wi-Fi 6, have not only further met the application needs of the Internet of People but also stimulated diverse application scenarios for the IoT, ushering society into a new era of "the Internet of Everything." Human connectivity is gradually shifting from "no connection" and "weak connection" to "intelligent connection." The scale of global network connections far exceeds the world's population, encompassing everything. GSMA predicts that by 2025, 25 billion devices will be connected to 5G networks worldwide. IDC even predicts that the total number of IoT devices worldwide will reach a staggering 41.6 billion by 2025.
The Structure and Functions of Intelligent Connectivity
The concept of "intelligent connectivity," while not new, holds profound implications. In today's era of rapid technological advancement, intelligent connectivity is more than just a simple stack of technologies; it's a comprehensive solution tailored for all scenarios. Intelligent connectivity doesn't exist in isolation. It works alongside other intelligent technologies, such as intelligent interaction, intelligent hubs, and smart applications, to weave the grand blueprint of the intelligent entity. As the backbone of the intelligent entity, intelligent connectivity ensures the coordinated operation of the cloud, network, edge, and end, supports the interconnection of internal and external devices, and addresses five key requirements, including high reliability.
Key Technologies for Intelligent Connectivity
◉ The Role of 5G and F5G
5G technology is undoubtedly a crucial cornerstone of intelligent connectivity. Building on the conventional performance indicators of 5G, intelligent connectivity further advances three innovative metrics: Gbps uplink speed, 20ms low latency, and sub-meter positioning. These technological breakthroughs support the ubiquitous gigabit connectivity and other essential features of intelligent connectivity. Furthermore, the rise of the fifth-generation fixed network, F5G, cannot be ignored. Known as the "5G network on Earth," F5G, with an all-optical network at its core, is committed to realizing the vision of "connecting everything with optical fiber." Representative technologies include 10G PON, Wi-Fi 6, 200G/400G, OXC, and NG OTN.
◉ Integration of AI Technologies
The "intelligence" of intelligent connectivity, specifically AI, is crucial. The introduction of AI drives automation and intelligence in intelligent connectivity across network management and device upgrades, enabling adaptability to complex scenarios and network evolution. AI not only enhances the automation and intelligence of intelligent connectivity but also provides powerful support for its application in various complex scenarios. The introduction of AI drives automation and intelligence in intelligent connectivity across network management and device upgrades, enabling adaptability to complex scenarios and network evolution.
The Value of Intelligent Connectivity
◉ Driving Innovation in Various Sectors
Next, we'll delve deeper into how intelligent connectivity creates value. Intelligent connectivity improves efficiency in industries such as industry, telemedicine, and autonomous driving, and is a core force in digital transformation, driving productivity growth and transforming business models. Intelligent connectivity not only improves our work efficiency but also drives digital transformation across various industries. In industrial sectors like smart manufacturing, intelligent connectivity provides end-to-end ultra-low latency, enabling industrial robotic arms to react quickly and perform precise operations, significantly improving production efficiency. Furthermore, its ultra-high bandwidth and ultra-high uplink speeds enable workers to conduct remote inspections using wireless VR glasses, further enhancing work efficiency.
In addition, intelligent connectivity plays a vital role in areas such as telemedicine and autonomous driving. In telemedicine, it enables doctors to perform remote surgeries, saving time and reducing costs. In the autonomous driving sector, intelligent connectivity's ultra-high bandwidth, ultra-low latency, and ultra-high reliability lay a solid foundation for its widespread adoption, driving efficiency improvements and cost reductions in the freight transport sector. In summary, intelligent connectivity is creating significant value in various sectors, becoming a key force driving digital transformation.